Title :
Monocular 3D structure estimation for urban scenes
Author :
Nawaf, M.M. ; Tremeau, A.
Author_Institution :
Lab. Hubert Curien, Univ. de St.-Etienne, St. Etienne, France
Abstract :
We propose a 3D structure estimation framework that adopts the slanted-planes representation in order to provide a dense estimation. The proposed approach fuses sparse 3D reconstructed point cloud obtained using several feature matching methods and noisy dense optical flow in order to perform accurate structure fitting and visually appealing results. We formulate the problem as a weighted total least square model that takes into account the occlusion boundaries between neighboring planes. We also propose an extended flow-based superpixel segmentation which is adaptive to the sparse feature points density for more balanced reconstruction. To validate our approach, we present 3D models obtained using the KITTI dataset [1] compared with other methods.
Keywords :
image reconstruction; image representation; image segmentation; image sequences; least squares approximations; 3D models; KITTI dataset; computer vision; dense estimation; extended flow-based superpixel segmentation; feature matching methods; image sequence; monocular 3D structure estimation; noisy dense optical flow; slanted-planes representation; sparse 3D reconstructed point cloud; structure fitting; urban scenes; weighted total least square model; Adaptive optics; Computer vision; Image reconstruction; Optical imaging; Solid modeling; Surface reconstruction; Three-dimensional displays; 3D reconstruction; model fitting; superpixel segmentation;
Conference_Titel :
Image Processing (ICIP), 2014 IEEE International Conference on
Conference_Location :
Paris
DOI :
10.1109/ICIP.2014.7025764
